1. Akhtar, M. K., Wibe, J., Simonovic, S. P., & MacGee, J. (2013). Integrated assessment model of society-biosphere-climate-economy-energy system. Environmental Modeling & Software, 49, 1–21.
2. Alami, M., Farzin, S., Ahmadi, M., & Aghabalaee, B. (2014). System dynamics modeling of dam and groundwater for optimal water management (Case study: Golak Dam). Journal of Civil and Environmental Engineering, 44(74), 1–12. (in Persian).
3. Alcamo, J., Doll, P., Henrichs, T., Kaspar, F., Lehner, B., Rosch, T., & Siebert, S. (2003). Global estimates of water withdrawals and availability under current and future “business-as-usual” conditions. Hydrological Sciences Journal, 48(3), 339–348. https://doi.org/10.1623/hysj.48.3.339.45278
4. Allington, G. R. H., Li, W., & Brown, D. G. (2017). Urbanization and environmental policy effects on the future availability of grazing resources on the Mongolian Plateau: Modeling socio-environmental system dynamics. Environmental Science & Policy, 68, 35–46.
5. Ardakanian, R., & Karimi, A. (2011). Development and application of a long-term water allocation model in assessment of water policies. Sharif Journal of Civil Engineering, 2–27(1), 95–105. (in Persian with an English Abstract).